General Chemistry - Full University Course

General Chemistry - Full University Course

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- 0:00:00 Intro

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- 0:00:00 Intro

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General Chemistry - Full University Course

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  1. 1 - 0:00:00 Intro
  2. 2 - 0:00:37 1.1 Matter
  3. 3 - 0:26:36 1.2 Scientific Notation & Significant Figures
  4. 4 - 0:48:39 1.3 Units and Conversions
  5. 5 - 1:19:26 2.1 Atomic Theory and Structure & Introduction to the Periodic Table of the Elements
  6. 6 - 1:48:06 2.2 Naming Ionic Compounds
  7. 7 - 2:06:15 2.3 Naming Molecular Compounds
  8. 8 - 2:13:35 2.4 How to Name Acids
  9. 9 - 2:25:26 3.1 Chemical Reactions & Chemical Equations
  10. 10 - 2:42:47 3.2 Calculations with Moles
  11. 11 - 3:12:26 3.3 Mass Percent and Empirical and Molecular Formulas
  12. 12 - 3:25:29 3.4 Limiting Reactant Problems
  13. 13 - 3:49:11 4.1 Solutions and Electrolytes
  14. 14 - 4:09:21 4.2 Double Displacement Reactions
  15. 15 - 4:31:30 4.3 Oxidation Reduction Reactions
  16. 16 - 4:57:13 4.4 Molarity and Dilutions
  17. 17 - 5:12:45 4.5 Solution Stoichiometry
  18. 18 - 5:22:40 5.1 First Law of Thermodynamics and Enthalpy
  19. 19 - 5:52:09 5.1b PV Work
  20. 20 - 5:59:53 5.2 Calorimetry
  21. 21 - 6:28:24 5.3 Hess's Law and Enthalpy of Formation
  22. 22 - 7:05:40 6.1 Nature of Light and the Photoelectric Effect
  23. 23 - 7:32:01 6.2 Electronic Transitions Absorption and Emission
  24. 24 - 7:54:20 6.3 The de Broglie Relation and the Heisenberg Uncertainty Principle
  25. 25 - 8:04:09 6.4 Quantum Numbers and Atomic Orbitals
  26. 26 - 8:32:19 6.5 Electron Configuration
  27. 27 - 9:15:17 7.1 Atomic Radius
  28. 28 - 9:50:34 7.1b Slater's Rules
  29. 29 - 10:05:11 7.2 Ionization Energy
  30. 30 - 10:19:33 7.3 Electron Affinity & Electronegativity
  31. 31 - 10:33:24 7.4 Properties of Elements and Compounds
  32. 32 - 10:56:12 8.1 Ionic Bonding
  33. 33 - 11:11:24 8.1b Born Haber Cycle
  34. 34 - 11:18:23 8.2 How to Draw Lewis Dot Structures
  35. 35 - 12:24:48 8.3 Bond Enthalpy
  36. 36 - 12:41:52 9.1 VSEPR Theory and Molecular Shapes
  37. 37 - 13:14:51 9.2 Polarity
  38. 38 - 13:35:56 9.3 Hybridization
  39. 39 - 13:52:08 9.4 Sigma Bonds and Pi Bonds
  40. 40 - 13:59:26 9.5 Molecular Orbital Theory
  41. 41 - 14:44:39 10.1 Properties of Gases
  42. 42 - 14:56:24 10.2 Gas Laws Including the Ideal Gas Law
  43. 43 - 15:37:27 10.3 Dalton's Law of Partial Pressure, Gas Density, & Graham's Law of Effusion
  44. 44 - 15:58:20 10.4 Real Gases & the Van der Waals Equation
  45. 45 - 16:09:59 11.1 Intermolecular Forces
  46. 46 - 16:45:17 11.2 Phase Diagrams
  47. 47 - 16:59:22 11.3 Structures of Solids
  48. 48 - 17:29:09 13.1 Solution Formation and Solubility
  49. 49 - 17:44:46 13.2 Units of Concentration
  50. 50 - 17:58:02 13.3 Colligative Properties
  51. 51 - 18:32:19 14.1 Rate Expressions and the Rate of Reaction
  52. 52 - 18:42:18 14.2 Rate Laws
  53. 53 - 19:06:54 14.3 Reaction Mechanisms, Catalysts, and Reaction Coordinate Diagrams
  54. 54 - 19:43:10 14.4 Collision Theory and the Arrhenius Equation
  55. 55 - 20:05:50 14.5 Integrated Rate Laws
  56. 56 - 20:30:20 14.5b Derivation of the Integrated Rate Laws
  57. 57 - 20:37:14 15.1 Chemical Equilibrium and Equilibrium Constants
  58. 58 - 21:05:15 15.2 Le Chatelier's Principle
  59. 59 - 21:29:47 15.3 Equilibrium Calculations Using ICE Charts aka ICE Tables
  60. 60 - 21:52:36 16.1 Introduction to Acids and Bases
  61. 61 - 22:24:30 16.2 Binary Acids, Oxoacids, and Polyprotic Acids
  62. 62 - 22:43:51 16.3 The pH Scale and pH Calculations
  63. 63 - 23:10:13 16.4 pH Calculations for Strong Acids and Bases
  64. 64 - 23:22:20 16.5 pH Calculations for Weak Acids and Bases
  65. 65 - 23:59:04 16.6 Acidity and Basicity of Salts
  66. 66 - 24:22:55 17.1 Buffers and Buffer pH Calculations
  67. 67 - 25:06:52 17.2 Acid-Base Titrations and Titration Curves
  68. 68 - 25:35:02 17.3a Strong Acid Strong Base Titrations pH Calculations
  69. 69 - 25:50:45 17.3b Weak Acid Strong Base Titrations pH Calculations
  70. 70 - 26:19:03 17.4 Solubility and Ksp
  71. 71 - 26:41:04 17.5 Common Ion Effect and Precipitation
  72. 72 - 27:08:34 17.6 pH Effects on Solubility
  73. 73 - 27:16:40 18.1 The Laws of Thermodynamics
  74. 74 - 27:26:06 18.2 Entropy
  75. 75 - 27:50:50 18.3 Gibbs Free Energy and the Relationship between Delta G, Delta H, & Delta S
  76. 76 - 28:22:20 18.4 Calculating Delta G, Delta H, & Delta S
  77. 77 - 28:39:52 18.5 Gibbs Free Energy and the Equilibrium Constant
  78. 78 - 29:03:55 19.1 How to Assign Oxidation Numbers
  79. 79 - 29:24:28 19.2 How to Balance Redox Reactions Half-Reaction Method
  80. 80 - 29:56:37 19.3 Galvanic Cells
  81. 81 - 30:19:55 19.3b Cell Notation & Cathodic Protection
  82. 82 - 30:28:45 19.4 How to Calculate Standard Cell Potential
  83. 83 - 30:55:19 19.5 How to Calculate Nonstandard Cell Potential [Nernst Equation]
  84. 84 - 31:07:06 19.5b Concentration Cells
  85. 85 - 31:15:10 19.6 Cell Potential, Delta G, and the Equilibrium Constant
  86. 86 - 31:24:08 19.7 Electrolytic Cells
  87. 87 - 31:34:35 19.8 Electrolysis Calculations
  88. 88 - 31:47:11 20.1 Introduction to Nuclear Chemistry
  89. 89 - 32:05:51 20.2 Balancing Nuclear Reactions
  90. 90 - 32:12:29 20.3 Spontaneous Routes of Nuclear Decay, Fission, & Fusion
  91. 91 - 32:34:21 20.4 Kinetics of Nuclear Decay
  92. 92 - 32:53:31 20.5 Energy of Nuclear Reactions & Nuclear Binding Energy
  93. 93 - 33:15:40 21.1 Introduction to Coordination Chemistry
  94. 94 - 33:28:12 21.2 Naming Complex Ions and Coordination Compounds
  95. 95 - 33:41:23 21.3 Isomers in Coordination Chemistry
  96. 96 - 34:04:20 21.4 Crystal Field Theory
  97. 97 - 34:26:25 21.5 Color and Paramagnetism of Complex Ions and Coordination Compounds

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